Access based internet protocol multimedia service authorization

ABSTRACT

The described embodiments of the present invention include a method for controlling authorization of a multimedia service requested by a user device. In one embodiment, the method includes examining an identity of an access network associated with the user device and an identity of the service requested to determine whether the service is supported; authorizing resources in the access network required by the service if the service is supported; rejecting the service if the service is not supported and if a policy associated with the access network requires unsupported services to be rejected; and authorizing a default level of resources in the access network if the service is not supported and if the policy associated with the access network does not require unsupported services to be rejected.

FIELD OF THE INVENTION

The present invention relates to access network control in mobilenetworks. More specifically, the present invention relates to control ofthe authorization of multimedia services utilizing the connectivityresources provided by the access network.

BACKGROUND OF THE INVENTION

Mobile devices capable of using many wireless access protocols arecurrently entering the marketplace. For example, phones will soon beavailable that can access multimedia services by either a thirdgeneration cellular network or a Wi-Fi network based on the IEEE 802.11series of standards. FIG. 1 shows this graphically. Mobile device 10uses a radio access network 12 (e.g., a cellular access network based oncdma2000) to access a multimedia application or service 14 in amultimedia enabled core network 16. Alternatively, mobile device 20 canuse another wireless access network 22, such as a Wi-Fi network, toaccess the multimedia application or service 14 via the Internet 24.Typically, these mobile devices 10, 20 are programmed to select theaccess network used based on availability and a preference setting. Forexample, a multi-protocol phone or other mobile device may be programmedto select a Wi-Fi network when it is available and the cellular networkwhen no Wi-Fi connection is available.

IP multimedia services include a variety of multimedia applicationsand/or services such as Voice over IP (VoIP), streaming video, etc. thatoperate over Internet Protocol (IP) or IP based protocols. With thegrowing popularity of VoIP clients that execute over a variety ofoperating systems, authorization schemes for VoIP and other IPmultimedia services are required to minimize the potential revenuelosses to the access provider resulting from the delivery of IPmultimedia services to unauthorized mobile devices.

In wireless mobile access networks and core networks, the SessionInitialization Protocol (SIP) is generally used for call controlassociated with IP multimedia services. In an IP multimedia enabled corenetwork (such as core network 16), the Quality of Service (QoS)constraints identified by the IP multimedia services are authorizedbased on the policies that are applicable to a specific access network(e.g., radio access network 12, wireless access network 22). The IPmultimedia enabled core network provides the call control and servicesthat are delivered to the mobile device (e.g., 10, 20) over one or moredifferent types of access technologies, such as cdma2000, WLAN, etc.

In the existing mobile packet data systems, schemes for limiting the useof access network resources for unauthorized IP multimedia services(e.g., unauthorized VoIP) are required to minimize the potential forrevenue loss. While SIP Proxies can be used to minimize potentialrevenue losses (e.g., from unauthorized VoIP service) over specificaccess networks, the SIP Proxies should not globally restrict access tofree services that may be available over the public Internet.

SUMMARY OF THE INVENTION

One embodiment of the present invention is a method for controllingauthorization of an IP multimedia service requested by a user deviceincluding: examining an identity of an access network associated withthe user device and an identity of the service requested to determinewhether the service is supported; authorizing resources in the accessnetwork required by the service if the service is supported; andrejecting the service if the service is not supported.

In another embodiment, a method for controlling authorization of an IPmultimedia service requested by a user device includes: examining anidentity of an access network associated with the user device and anidentity of the service requested to determine whether the service issupported; authorizing resources in the access network required by theservice if the service is supported; and authorizing a default level ofresources in the access network if the service is not supported.

In another embodiment, a method for controlling authorization of an IPmultimedia service requested by a user device includes: examining anidentity of an access network associated with the user device and anidentity of the service requested to determine whether the service issupported; authorizing resources in the access network required by theservice if the service is supported; rejecting the service if theservice is not supported and if a policy associated with the accessnetwork requires unsupported services to be rejected; and authorizing adefault level of resources in the access network if the service is notsupported and if the policy associated with the access network does notrequire unsupported services to be rejected.

In another embodiment, a method for controlling authorization of an IPmultimedia service requested by a user device includes: establishing amobile IP connection with an access network; acquiring an identity ofthe access network; transmitting the identity of the access network to aSIP Proxy server of a core network; launching a multimedia service;providing an identify of the multimedia service to the SIP Proxy server;wherein the SIP Proxy server examines an identity of an access networkassociated with the user device and an identity of the service requestedto determine whether the service is supported, authorizes resources inthe access network required by the service if the service is supported,rejects the service if the service is not supported and if a policyassociated with the access network requires unsupported services to berejected; and authorizes a default level of resources in the accessnetwork if the service is not supported and if the policy associatedwith the access network does not require unsupported services to berejected.

In another embodiment, a system for providing access by a user to an IPmultimedia service includes: a user device configured to establish amobile IP connection with an access network, acquire an identity of theaccess network, transmit the identity of the access network to a sessioninitialization proxy server, launch an IP multimedia service, andprovide an identity of the service to the session initialization proxyserver; a home subscriber server having a database including accessnetwork identities and associated supported multimedia serviceidentities; the session initialization proxy server configured to querythe home subscriber server for authorization of the multimedia service,authorize resources in the access network required by the service if theservice is supported, reject the service if the service is not supportedand if a policy associated with the access network requires unsupportedservices to be rejected; and authorize a default level of resources inthe access network if the service is not supported and if the policyassociated with the access network does not require unsupported servicesto be rejected; a policy function server configured to receive qualityof service constraints from the session initialization proxy server andto supply corresponding quality of service parameters to an accessgateway; and the access gateway configured to allocate bearer levelresources to support the multimedia service.

BRIEF DESCRIPTION OF THE DRAWINGS

A more complete understanding of the present invention and itsadvantages will be readily apparent from the following DetailedDescription taken in conjunction with the accompanying drawings.Throughout the accompanying drawings, like parts are designated by likereference numbers and in which:

FIG. 1 is a schematic diagram showing two access networks capable ofaccessing an IP multimedia application or service;

FIG. 2 is a schematic diagram showing the core and access networkentities in one embodiment of the present invention;

FIG. 3 is a diagram illustrating the connections between the componentsof FIG. 2;

FIG. 4 is a diagram of the protocol stacks of the components of FIG. 2showing the communications protocols used in the connections illustratedin FIG. 3;

FIGS. 5A-5C are flow diagrams of a process that is one embodiment of thepresent invention.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 2 shows a diagram of the core and access network entities employedin the authorization of IP multimedia services. A mobile device (MD) 100can connect to access gateways (AGW) 114, 116 using, for example,cellular access technologies, such as that provided by radio accessnetwork 12, or wireless LAN technologies, such as that provided bywireless access network 22.

The access gateway performs the mobility agent function to support thenetwork layer mobility of the mobile device. The Session InitiationProtocol based call control function (SIP Proxy) 120 (see J. Rosenberg,H. Schulzrinne, G. Camarillo, A. Johnston, J. Peterson, R. Sparks, M.Handley, E. Schooler, “SIP: Session Initiation Protocol,” RFC3261, IETF,June 2002; and see Camarillo, G., Marshall, W., and J. Rosenberg,“Integration of Resource Management and Session Initiation Protocol(SIP)”, RFC 3312, October 2002, which are both incorporated herein byreference), Policy Function (PF) 124, 126 and the Home Subscriber Server(HSS) 130 collaborate in the authorization of the Quality of Service(QoS) constraints requested by an IP multimedia service. The QoSconstraints that are authorized and enforced dictate the serviceexperience for a mobile subscriber accessing the IP multimedia serviceusing the mobile device 100.

One embodiment of the invention employs the access network identity as afilter for the authorization of the bearer level resources in the accessnetwork. The bearer level resources, to support the QoS constraintsrequested by an IP multimedia service, are enforced by the AccessGateway associated with the access network. The identity of therequested IP multimedia service is also utilized in the IP multimediaenabled core network to authorize an IP multimedia service.

In one embodiment of the invention, the core network contains IPMultimedia Subsystem (IMS) framework entities such as the SIP Proxy,Policy Function, and the Home Subscriber Server. A SIP Proxy can serveone or more PFs. A PF in turn can serve one or more AGWs associated withan access technology such as cdma2000, WLAN, etc.

FIG. 3 shows a schematic diagram of a mobile device 100 accessing an IPmultimedia application or service 138 on a media server. This embodimentof the invention is particularly applicable to multimedia applicationssuch as streaming media and VoIP, but is capable of addressing any typeof data communication where QoS should be maintained.

The mobile device 100 establishes a mobile IP session with the radioaccess network 140, via the AGW 114. The mobile device 100 isauthenticated using the authentication, authorization, and accounting(AAA) server 134. During the establishment of the mobile IP session, themobile device 100 obtains the identity of the access network 140 via,for example, the Normal Vendor Specific Extension (NVSE) within theMobile Internet Protocol v4 (mobile IP) (see 3^(rd) GenerationPartnership Project 2 (3GPP2), “All-IP Network Architecture Model forcdma2000 Spread Spectrum Systems,” S.R0037-0 v3.0, September 2003, whichis incorporated herein by reference). After the IP connectivity with theaccess network 140 is established, the mobile device 100 registers withthe SIP Proxy 120 using, for example, a SIP REGISTER message. The SIPREGISTER message may use, for example, a P-Access-Network-Info header totransfer the identity of the access network 140 to the SIP Proxy 120.

In one embodiment of the invention, the SIP REGISTER message includesthe following fields:

-   Request-URI: This field contains the destination of the registration    request, which is routed through the SIP Proxy 120.-   To: This field contains the SIP Uniform Resource Identifier (URI) of    the mobile device 100, which requires creation or modification.-   From: This field contains the SIP URI of the user, who is associated    with the registration. The value of this field is identical to that    for the “To” header.-   Call-ID: This field contains a globally unique identifier for the IP    multimedia service client in the mobile device 100.-   Cseq: This field contains the sequence number associated with a SIP    REGISTER message.-   P-Access-Network-Info: This field contains the access network    identity.

Once the mobile device 100 has registered with the SIP Proxy 120, themobile device 100 may launch an IP multimedia service. The mobile device100 transmits a message to the SIP Proxy 120 to establish a SIP session.In one embodiment, the message is a SIP INVITE message that uses aprivate header extension: P-Service-Info header, which can be used totransfer the identity of the IP multimedia service to the SIP Proxy 120.

In this embodiment, the SIP INVITE message includes the followingfields:

Request-URI: This field contains the destination of the registrationrequest, which is routed through the SIP Proxy 120.

To: This field contains the SIP URI of the mobile device 100, whichrequires creation, or modification.

From: This field contains the SIP URI of the user, who is associatedwith the registration. The value of this field is identical to that forthe “To” header.

Call-ID: This field contains a globally unique identifier for the IPmultimedia service client, in the mobile device 100.

Cseq: This field contains the sequence number associated with a SIPINVITE message.

P-Service-Info: This field contains the service identity of the IPmultimedia service.

Content-Type: This field indicates the content type: application orSession Description Protocol (SDP).

Content-Length: This field contains the number of bytes in the SDP body.The SDP body specifies the application related QoS constraints, such asbandwidth requirements, and the media characteristics.

The SIP Proxy 120 obtains the QoS constraints from the mobile device 100via the Session Description Protocol during the establishment of a SIPsession. The QoS constraints are specified in terms of the media type,bandwidth etc. for the session associated with the IP multimediaservice. The SIP Proxy 120 updates the Policy Function (PF) 124 with theQoS constraints as necessary. The PF 124 authorizes the AGW 114 toallocate the required bearer level resources based on the QoSconstraints, which were negotiated during the establishment of thesession between the mobile device 100 and the SIP Proxy 120. Bearerlevel resources are the links that carry the media content.

Mid-session QoS constraint negotiations may also occur between themobile device 100 and the SIP Proxy 120 based on the demands asserted bythe IP multimedia service. If the mid-session QoS constraintnegotiations result in a change to the QoS, the PF 124 updates the AGW114, which in turn reallocates the required bearer level resources inthe access network 140 to satisfy the QoS constraints demanded by the IPmultimedia service. The allocated bearer level resources provide thenecessary bandwidth and other resources to support the IP multimediaservice launched by the mobile device 100.

The SIP Proxy 120 examines the access network identity (or otherinformation relating to the access network type) contained in theP-Access-Network-Info header and the service identity (or otherinformation relating to the service type) contained in theP-Service-Info header and compares this information with otherinformation from a database associated with the HSS 130 to determinewhether the access network 140 supports the requested service. In oneembodiment, the HSS 130 database includes a look-up table containingaccess network identities and the service identities that are supportedby each access network. The access provider policies associated with theaccess network 140 are defined in the PF 124. The SIP Proxy 120transfers to the PF 124 the results of whether or not the requestedservice is supported over the access network 140.

If the service is supported, then the PF 124 translates the QoSconstraints associated with the IP multimedia service into the bearerlevel QoS parameters. The QoS parameters are transferred from the PF 124to the AGW 114, where the corresponding bearer level resources areallocated to the service.

If the service is not identifiable or is not supported or if theP-Service-Info header is absent from the SIP INVITE, then either theservice is denied or the service is subjected to a default best effortQoS treatment based on the authorization policy defined by the accessprovider. The best effort QoS treatment would reduce the user experiencefor unauthorized IP multimedia services (such as VoIP traffic) over anaccess network segment which, in turn, would reduce or avoid relatedrevenue losses.

Policy definitions for different access networks and technologies can beused to determine whether or not the bearer level resources areallocated by the AGW 114 and, if the resources are allocated, thecorresponding QoS treatment.

A protocol reference model for an access based IP multimedia serviceauthorization includes diverse radio access networks that are supportedby a multimedia enabled core network is shown in FIG. 4. The physicallayer and the link layer protocols would be different for differentwireless access technologies. For inter-operability, the protocols atthe network layer and above are based on open standards. In this model,the multimedia call control is performed via SIP, and the media streamsare conveyed over real-time protocol (RTP), user datagram protocol (UDP)and Internet protocol (IP).

The SIP Proxy 120 entity supplies the QoS constraints to the PF 124,which provides the corresponding QoS parameters to the AGW 114, where itis enforced in terms of the corresponding bearer level resources. Theresource allocation at the AGW 114 is enforced in terms of the accesssegment associated with the access technology supported by the AGW 114.

FIGS. 5A-5C show the steps used in controlling authorization of IPmultimedia services. The process starts at step 200. At step 204, themobile device establishes a mobile IP connection with the accessnetwork. At step 208, the mobile device acquires the identity of theaccess network via, for example, the NVSE mobile IP extension. At step212, the mobile device formulates the SIP REGISTER message containing anidentifier associated with the access network. In one embodiment, theaccess network identity is contained in the SIP header extensionP-Access-Network-Info. The mobile device then registers with the SIPProxy by sending the SIP REGISTER message to the SIP Proxy at step 216.At step 220, the registration is updated to maintain the binding betweenthe mobile device and the SIP Proxy.

At step 224, it is determined whether the mobile device has launched amultimedia service. If not (No at step 224), the process returns to step220. If the mobile device has launched a multimedia service (Yes at step224), the process continues to step 228 wherein the mobile deviceinitiates the establishment of a session with the SIP Proxy via, forexample, a SIP INVITE message. The SIP INVITE message contains anidentifier associated with the IP multimedia service being launched onthe mobile device. In one embodiment, the SIP INVITE message includes aP-Service-Info header which contains the service identity of the IPmultimedia service.

At step 232, the SIP Proxy provides the HSS with the access networkidentifier and the service identifier and queries the HSS forauthorization of the requested IP multimedia service. The HSS determineswhether the requested IP multimedia service is authorized at step 236.The HSS can determine whether the requested IP multimedia service isauthorized by, for example, verifying the service identity against alist of authorized service identities. In one embodiment, the serviceidentify is verified against of a list of authorized service identitiesassociated with the particular access network to which the mobile deviceis currently connected. If the service identity is recognized by the HSS(No in step 236), the process continues to step 240.

At step 240, the SIP Proxy accepts the SIP INVITE and allows therequested session to be established. In one embodiment, the SIP Proxysends a 200 OK message to the mobile device. At step 244, the SIP Proxysupplies the PF with the QoS constraints associated with the requestedsession. The PF translates the QoS constraints into QoS parameters withcorresponding policy limits and supplies the QoS parameters and policylimit information to the AGW at step 248. At step 252, the AGW allocatesthe bearer level resources to support the requested service. The processthen ends at step 256.

In an embodiment in which the SIP INVITE message includes a header (suchas a P-Service-Info header) containing the service identity, the HSS candetermine whether the requested IP multimedia service is authorized byverifying the service identity found in the header. If the header isabsent or if the service identity is not recognized (Yes in step 236),the requested session is not authorized and the process proceeds to step260.

At step 260, the process determines whether the local policy (e.g., ofthe access network) requires that a request with an unknown servicetype, or a request that is missing a header containing the service type,should be rejected. If the local policy requires that such a request berejected (Yes in step 260), the process continues to step 264 in whichthe SIP Proxy rejects the SIP INVITE. In one embodiment, the SIP Proxyreturns a 401 Unauthorized Response message to the mobile device. Theprocess then ends at step 268.

Alternatively, if the local policy does not require rejection ofunidentified services (No in step 260), the SIP Proxy accepts the SIPINVITE at step 272 and allows the requested session to be established.In one embodiment, the SIP Proxy sends a 200 OK message to the mobiledevice. At step 276, the SIP Proxy supplies the PF with the defaultbest-effort QoS constraints. The PF translates the default best-effortQoS constraints into QoS parameters with corresponding policy limits andsupplies the QoS parameters and policy limit information to the AGW atstep 280. At step 284, the AGW allocates the bearer level resources tosupport the IP multimedia service. The process then ends at step 288.

The described embodiments provide for authorization of multimediaservices to reduce the potential revenue loss incurred as a result ofthe delivery of unauthorized multimedia services over the accessnetwork. Although specific embodiments are described herein, they arenot to be interpreted as limiting the scope of the invention. The scopeof the invention is only limited by the claims appended hereto.

We claim:
 1. A system for providing access by a user to a multimediaservice comprising: a user device configured to establish a mobile IPconnection with an access network, acquire an identity of the accessnetwork, transmit the identity of the access network to a sessioninitialization proxy server, launch a multimedia service, and provide anidentity of the multimedia service to the session initialization proxyserver; a home subscriber server having a database including accessnetwork identities and associated supported multimedia serviceidentities; the session initialization proxy server configured to querythe home subscriber server for authorization of the multimedia service,determine whether the multimedia service is supported by the accessnetwork by: (a) filtering bearer level resource authorization based onthe access network identity, and (b) filtering the multimedia serviceauthorization based on the multimedia service identity, authorizeresources in the access network required by the service if the serviceis supported, reject the service if the service is not supported and ifa policy associated with the access network requires unsupportedservices to be rejected; and authorize a predetermined default level ofresources corresponding to policy limits in the access network if theservice is not supported and if the policy associated with the accessnetwork does not require unsupported services to be rejected; a policyfunction server configured to receive quality of service constraintsfrom the session initialization proxy server and to supply correspondingquality of service parameters to an access gateway; and the accessgateway configured to allocate the bearer level resources to support themultimedia service.
 2. The system in accordance with claim 1, whereinthe user device is configured to acquire the identity of an accessnetwork associated with the user device by extracting the identity froma header associated with a Normal Vendor Specific Extension within theMobile Internet Protocol.
 3. The system in accordance with claim 1,wherein the user device is configured to use a SIP INVITE message torequest the multimedia service, wherein the user device is configured toacquire the identity of the requested service by extracting the identityfrom a header in the SIP INVITE message.
 4. The system in accordancewith claim 1, wherein the session initialization proxy server isconfigured to authorize resources by: obtaining quality of serviceconstraints from the user device; and providing the quality of serviceconstraints to a Policy Function server for use in allocating bearerlevel resources.